Yes, since the R constant has units of Latm/molK, temperature must be in K
The Arrhenius equation was created by Svante Arrhenius in 1889, based on the work of Dutch chemist J. H. van't Hoff. The rate equation shows the effect of changing the concentrations of the reactants on the rate of the reaction.
There is no such thing as an opposite to Kelvin temperature.There is no such thing as an opposite to Kelvin temperature.There is no such thing as an opposite to Kelvin temperature.There is no such thing as an opposite to Kelvin temperature.
T = (LnK-LnA)/(-Ea/R) Try this... T = (Ea/R)/(LnK - LnA) T = (Ea/R)/(LnK - LnA)
Kelvin is the absolute temperature - a temperature where absolute zero, the lowest temperature possible, is defined as zero. Therefore, in the phrase "absolute Kelvin", the word "absolute" seems redundant.
Brass is an alloy, Kelvin is a temperature scale. The temperature of the brass would depend on its surroundings
An Arrhenius equation is an equation which approximates the dependence of the rate of any chemical reaction on the temperature.
The Arrhenius equation is a formula for the dependence of reaction rates on temperature. The accelerated aging test of a material depends on the Arrhenius equation for it to work.
Temperature and activation energy
The Arrhenius equation describes a number of temperature dependent chemical reactions. These comprise not just the forward and reverse reactions, but also other reactions that are thermally influenced such as diffusion processes.
Temperature and activation energy - apex
ln k2/ln k1 = Ea/R * ((1/T1) - (1/T2)) where R = 8.314 and Temperatures are in Kelvin
Use this equation to convert Kelvin to degrees Celsius/Centigrade: [°C] = [K] - 273.15
You can use this equation to convert Kelvin to degrees Fahrenheit: [°F] = (K × 1.8) - 459.67
The Arrhenius equation was created by Svante Arrhenius in 1889, based on the work of Dutch chemist J. H. van't Hoff. The rate equation shows the effect of changing the concentrations of the reactants on the rate of the reaction.
yes
K (Kelvin)
Most other temperature scales are not absolute - the lowest possible temperature is not zero.